Its instantaneous conduction of heat energy can be used in industries such as semiconductors, electronics, pharmaceuticals, ice making, food, catering, wine making, sauces, cosmetics, high viscosity, or cooling needs and heat recovery needs.

 

The Sunshine Energy Conduction Tube is made with stainless steel which is anti-corrosion. It complies with the tightest safety rules and it can be made into various lengths when needed. It is easy to clean and is non-sticking. It does not contain any electronic circuit and it is maintenance-free.

1.The Conduction Tube is maintenance-free and highly durable due to its physical property.

2.Three types of tubes are provided: High-Temp Tubes, Mid-Temp Tubes and Low-Temp Tubes.

3.The Conduction Tube is made with stainless steel and titanium, meeting all kinds of needs.

4.Two types of operations: reversible and irreversible.

5.Various shapes and arrangements can be produced according to your needs.

It is applicable for any products requiring heat conduction, heating, cooling or heat-recycling.

 

Test Report

♠ Electro Polishing

♠ SGS REPORT OF TOXIN REMAINING OF ENERGY CONDUCTION TUBES

 

Cleaning & Sterilization

Seeing is believing

1.Cleaning by hot water

After cooling, use hot water to wash immediately, so that the adhering ingredients can easily fall off and remove the taste of the ingredients.

2.Food-grade oxygen bleach

After the work, add hot water with a temperature of over 85 degrees and 2 tablespoons of food-grade oxygen bleach into the bucket and soak for 20 minutes, then clean the energy conductor with hot water. It can also be cleaned after staying overnight.

3.UV sterilization system

Sterilization time is about 20-30 minutes. In order to avoid human factors causing the above two methods to be unable to clean completely, it is recommended to purchase this set of sterilization equipment. This sterilization system uses UV germicidal lamps to create a disinfect environment without dead ends.

 

 

〈〈UV germicidal lamp〉〉

Ultraviolet rays (UV) are invisible to the naked eye, and ultraviolet rays can be subdivided into three categories, namely UVA, UVB and UVC.

As we all know, UVC can kill the DNA of viruses, bacteria and spores, making microorganisms non-pathogenic. Ultraviolet radiation can be applied to various aspects of water and air treatment, but it is mainly for disinfection processes, which can inhibit the activities of microorganisms without using chemical substances.

Other uses of UV radiation: Eliminate organic and inorganic chemicals, including emerging pollutants such as chlorine, chloramines, ozone, and total organic carbon (TOC).

The benefits of ultraviolet light: It can act on all microorganisms, including bacteria, viruses, fungi and protozoa (such as Cryptosporidium and Giardia). After disinfection, there is no harm to health.

By-products, effective immediately. Easy operation, convenient maintenance, safety and environmental protection.

 

Kcal

 

The first law of thermodynamics, called the “energy conservation law”, means that energy can be transformed from one form to another, but it cannot be created or destroyed.

〈〈Calorific calculation〉〉

★1 kcal=1L water ↑1°C

Ex: 100L water, 30°C→32°C, need 200 kcal

»»»»» (32°C – 30°C) 1 kcal L= 200 kcal

Ex: 100L water, 50°C →40°C, need 1000 kcal

»»»»» (50°C – 40°C) 1 kcal L= 1000 kcal

 

★The latent heat of water, that is, the calorie required to change from water to ice (phase transition) is 80kcal.

0°C water ↹ 0°C ice= 80 kcal

Ex: 1L, 1°C water→-2°C ice, need ( ? ) kcal

»»»»» (1°C – 0°C) 1 kcal= 1 kcal ＊ 1 kcal= 1L water ↑1°C

»»»»» (0°C – (-2°C)) kcal= 1 kcal ＊ 0.5 kcal= 1L ice ↓1°C

»»»»» water→ice= 80 kcal ;

1°C water→-2°C ice= 1+1+80= 82 kcal

 

★100°C water→100°C steam= 594kcal

The steam heating efficiency is good. 100L of water is added to 1L of steam, and the temperature rises by 5.9°C instantly.